Voltage-driven hysteresis model for resistive switching: SPICE modeling and circuit applications

"Resistive switching devices are nonlinear electrical components that have drawn great attention in the design of new technologies including memory devices and neuromorphic circuits. In this paper, an SPICE implementation of a novel compact model is presented and put under test by means of diff...

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Autores principales: Patterson, Germán, Suñé, Jordi, Miranda, Enrique
Formato: Ponencias en Congresos acceptedVersion
Lenguaje:Inglés
Publicado: 2019
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Acceso en línea:http://ri.itba.edu.ar/handle/123456789/1727
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id I32-R138-123456789-1727
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spelling I32-R138-123456789-17272022-12-07T14:13:38Z Voltage-driven hysteresis model for resistive switching: SPICE modeling and circuit applications Patterson, Germán Suñé, Jordi Miranda, Enrique MODELOS MATEMATICOS HISTERESIS CONMUTACION SIMULACION SPICE MEMRISTORS CIRCUITOS NEUROMORFICOS "Resistive switching devices are nonlinear electrical components that have drawn great attention in the design of new technologies including memory devices and neuromorphic circuits. In this paper, an SPICE implementation of a novel compact model is presented and put under test by means of different circuit configurations. The model is based on two identical opposite-biased diodes in series with a resistor where the switching behavior is governed by the creation and rupture of multiple conductive channels. Results show that the model is stable under different input sources and amplitudes and, with special interest, in multielement circuits. The model is validated with experimental data available in the literature. Both the corresponding SPICE code and schematic are provided in order to facilitate the model use and assessment." 2019-08-21T16:41:19Z 2019-08-21T16:41:19Z 2017-12 Ponencias en Congresos info:eu-repo/semantics/acceptedVersion 0278-0070 http://ri.itba.edu.ar/handle/123456789/1727 en info:eu-repo/semantics/altIdentifier/doi/10.1109/TCAD.2017.2756561 info:eu-repo/grantAgreement/MINECO/FEDER/PCIN2013-076/ES. Madrid/PANACHE info:eu-repo/grantAgreement/ENIAC JU/TEC2012-32305/BE. Bruselas info:eu-repo/grantAgreement/DURSI/2014SGR384/ES. Cataluña application/pdf
institution Instituto Tecnológico de Buenos Aires (ITBA)
institution_str I-32
repository_str R-138
collection Repositorio Institucional Instituto Tecnológico de Buenos Aires (ITBA)
language Inglés
topic MODELOS MATEMATICOS
HISTERESIS
CONMUTACION
SIMULACION
SPICE
MEMRISTORS
CIRCUITOS NEUROMORFICOS
spellingShingle MODELOS MATEMATICOS
HISTERESIS
CONMUTACION
SIMULACION
SPICE
MEMRISTORS
CIRCUITOS NEUROMORFICOS
Patterson, Germán
Suñé, Jordi
Miranda, Enrique
Voltage-driven hysteresis model for resistive switching: SPICE modeling and circuit applications
topic_facet MODELOS MATEMATICOS
HISTERESIS
CONMUTACION
SIMULACION
SPICE
MEMRISTORS
CIRCUITOS NEUROMORFICOS
description "Resistive switching devices are nonlinear electrical components that have drawn great attention in the design of new technologies including memory devices and neuromorphic circuits. In this paper, an SPICE implementation of a novel compact model is presented and put under test by means of different circuit configurations. The model is based on two identical opposite-biased diodes in series with a resistor where the switching behavior is governed by the creation and rupture of multiple conductive channels. Results show that the model is stable under different input sources and amplitudes and, with special interest, in multielement circuits. The model is validated with experimental data available in the literature. Both the corresponding SPICE code and schematic are provided in order to facilitate the model use and assessment."
format Ponencias en Congresos
acceptedVersion
author Patterson, Germán
Suñé, Jordi
Miranda, Enrique
author_facet Patterson, Germán
Suñé, Jordi
Miranda, Enrique
author_sort Patterson, Germán
title Voltage-driven hysteresis model for resistive switching: SPICE modeling and circuit applications
title_short Voltage-driven hysteresis model for resistive switching: SPICE modeling and circuit applications
title_full Voltage-driven hysteresis model for resistive switching: SPICE modeling and circuit applications
title_fullStr Voltage-driven hysteresis model for resistive switching: SPICE modeling and circuit applications
title_full_unstemmed Voltage-driven hysteresis model for resistive switching: SPICE modeling and circuit applications
title_sort voltage-driven hysteresis model for resistive switching: spice modeling and circuit applications
publishDate 2019
url http://ri.itba.edu.ar/handle/123456789/1727
work_keys_str_mv AT pattersongerman voltagedrivenhysteresismodelforresistiveswitchingspicemodelingandcircuitapplications
AT sunejordi voltagedrivenhysteresismodelforresistiveswitchingspicemodelingandcircuitapplications
AT mirandaenrique voltagedrivenhysteresismodelforresistiveswitchingspicemodelingandcircuitapplications
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